262 lines
8.3 KiB
C++
Executable File
262 lines
8.3 KiB
C++
Executable File
// Copyright (c) 2006,2007,2009,2010,2011 Tel-Aviv University (Israel).
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// All rights reserved.
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//
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// This file is part of CGAL (www.cgal.org).
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// You can redistribute it and/or modify it under the terms of the GNU
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// General Public License as published by the Free Software Foundation,
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// either version 3 of the License, or (at your option) any later version.
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//
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// Licensees holding a valid commercial license may use this file in
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// accordance with the commercial license agreement provided with the software.
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//
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// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
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// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
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//
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// $URL$
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// $Id$
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// SPDX-License-Identifier: GPL-3.0+
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//
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//
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// Author(s): Ron Wein <wein@post.tau.ac.il>
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// Efi Fogel <efif@post.tau.ac.il>
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#ifndef CGAL_ARRANGEMENT_2_H
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#define CGAL_ARRANGEMENT_2_H
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#include <CGAL/license/Arrangement_on_surface_2.h>
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#include <CGAL/disable_warnings.h>
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/*! \file
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* The header file for the Arrangement_2<Traits,Dcel> class.
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*/
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#include <CGAL/Arr_tags.h>
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#include <CGAL/Arrangement_on_surface_2.h>
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#include <CGAL/Arrangement_2/Arr_default_planar_topology.h>
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namespace CGAL {
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/*! \class Arrangement_2
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* The arrangement class, representing planar subdivisions induced by
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* a set of arbitrary planar curves.
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* The GeomTraits parameter corresponds to a geometry-traits class that
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* defines the Point_2 and X_monotone_curve_2 types and implements the
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* geometric predicates and constructions for the family of curves it defines.
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* The Dcel parameter should be a model of the ArrDcel concept and support
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* the basic topological operations on a doubly-connected edge-list.
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*/
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template <class GeomTraits_,
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class Dcel_ = Arr_default_dcel<GeomTraits_> >
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class Arrangement_2 :
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public Arrangement_on_surface_2
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<GeomTraits_, typename Default_planar_topology<GeomTraits_, Dcel_>::Traits>
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{
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protected:
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typedef Default_planar_topology<GeomTraits_, Dcel_ > Default_topology;
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public:
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typedef Arrangement_on_surface_2<GeomTraits_,
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typename Default_topology::Traits>
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Base;
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typedef GeomTraits_ Geometry_traits_2;
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typedef Dcel_ Dcel;
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typedef Arrangement_2<Geometry_traits_2, Dcel> Self;
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typedef typename Base::Point_2 Point_2;
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typedef typename Base::X_monotone_curve_2 X_monotone_curve_2;
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typedef typename Default_topology::Traits Topology_traits;
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// Type definitions.
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typedef typename Base::Vertex Vertex;
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typedef typename Base::Halfedge Halfedge;
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typedef typename Base::Face Face;
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typedef typename Base::Size Size;
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typedef typename Base::Vertex_iterator Vertex_iterator;
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typedef typename Base::Vertex_const_iterator Vertex_const_iterator;
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typedef typename Base::Halfedge_iterator Halfedge_iterator;
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typedef typename Base::Halfedge_const_iterator Halfedge_const_iterator;
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typedef typename Base::Edge_iterator Edge_iterator;
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typedef typename Base::Edge_const_iterator Edge_const_iterator;
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typedef typename Base::Face_iterator Face_iterator;
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typedef typename Base::Face_const_iterator Face_const_iterator;
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typedef typename Base::Halfedge_around_vertex_circulator
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Halfedge_around_vertex_circulator;
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typedef typename Base::Halfedge_around_vertex_const_circulator
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Halfedge_around_vertex_const_circulator;
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typedef typename Base::Ccb_halfedge_circulator Ccb_halfedge_circulator;
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typedef typename Base::Ccb_halfedge_const_circulator
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Ccb_halfedge_const_circulator;
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typedef typename Base::Outer_ccb_iterator Outer_ccb_iterator;
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typedef typename Base::Outer_ccb_const_iterator Outer_ccb_const_iterator;
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typedef typename Base::Inner_ccb_iterator Inner_ccb_iterator;
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typedef typename Base::Inner_ccb_const_iterator Inner_ccb_const_iterator;
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typedef typename Base::Isolated_vertex_iterator Isolated_vertex_iterator;
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typedef typename Base::Isolated_vertex_const_iterator
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Isolated_vertex_const_iterator;
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typedef typename Base::Vertex_handle Vertex_handle;
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typedef typename Base::Vertex_const_handle Vertex_const_handle;
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typedef typename Base::Halfedge_handle Halfedge_handle;
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typedef typename Base::Halfedge_const_handle Halfedge_const_handle;
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typedef typename Base::Face_handle Face_handle;
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typedef typename Base::Face_const_handle Face_const_handle;
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// These types are defined for backward compatibility:
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typedef Geometry_traits_2 Traits_2;
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typedef typename Base::Inner_ccb_iterator Hole_iterator;
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typedef typename Base::Inner_ccb_const_iterator Hole_const_iterator;
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private:
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friend class Arr_observer<Self>;
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friend class Arr_accessor<Self>;
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public:
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/// \name Constructors.
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//@{
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/*! Default constructor. */
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Arrangement_2 () :
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Base ()
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{}
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/*! Copy constructor (from a base arrangement). */
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Arrangement_2 (const Base& base) :
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Base (base)
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{}
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/*! Constructor given a traits object. */
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Arrangement_2 (const Traits_2 *tr) :
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Base (tr)
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{}
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//@}
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/// \name Assignment functions.
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//@{
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/*! Assignment operator (from a base arrangement). */
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Self& operator= (const Base& base)
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{
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Base::assign (base);
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return (*this);
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}
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/*! Assign an arrangement. */
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void assign (const Base& base)
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{
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Base::assign (base);
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return;
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}
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//@}
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///! \name Specialized access methods.
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//@{
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/*! Obtain the geometry-traits class. */
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const Traits_2* traits () const
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{
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return (this->geometry_traits());
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}
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/*! Obtain the number of vertices at infinity. */
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Size number_of_vertices_at_infinity () const
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{
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// The vertices at infinity are valid, but not concrete:
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return (this->topology_traits()->number_of_valid_vertices() -
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this->topology_traits()->number_of_concrete_vertices());
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}
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/*! Obtain the unbounded face (non-const version). */
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Face_handle unbounded_face ()
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{
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// The fictitious un_face contains all other valid faces in a single
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// hole inside it. We return a handle to one of its neighboring faces,
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// which is necessarily unbounded.
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typename Base::DFace *un_face =
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const_cast<typename Base::DFace*>(this->topology_traits()->
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initial_face());
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if (! un_face->is_fictitious())
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return (Face_handle (un_face));
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typename Base::DHalfedge *p_he = *(un_face->inner_ccbs_begin());
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typename Base::DHalfedge *p_opp = p_he->opposite();
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typename Base::DOuter_ccb *p_oc = p_opp->outer_ccb();
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return (Face_handle (p_oc->face()));
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}
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/*! Get the unbounded face (const version). */
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Face_const_handle unbounded_face () const
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{
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// The fictitious un_face contains all other valid faces in a single
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// hole inside it. We return a handle to one of its neighboring faces,
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// which is necessarily unbounded.
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const typename Base::DFace *un_face =
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this->topology_traits()->initial_face();
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if (! un_face->is_fictitious())
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return (Face_const_handle (un_face));
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const typename Base::DHalfedge *p_he = *(un_face->inner_ccbs_begin());
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const typename Base::DHalfedge *p_opp = p_he->opposite();
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const typename Base::DOuter_ccb *p_oc = p_opp->outer_ccb();
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return (Face_const_handle (p_oc->face()));
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}
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//@}
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protected:
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/// \name Managing and notifying the arrangement observers.
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//@{
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typedef Arr_observer<Self> Observer;
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/*!
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* Register a new observer (so it starts receiving notifications).
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* \param p_obs A pointer to the observer object.
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*/
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void _register_observer (Observer *p_obs)
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{
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Base::_register_observer ((typename Base::Observer*)p_obs);
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return;
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}
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/*!
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* Unregister a new observer (so it stops receiving notifications).
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* \param p_obs A pointer to the observer object.
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* \return Whether the observer was successfully unregistered.
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*/
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bool _unregister_observer (Observer *p_obs)
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{
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return (Base::_unregister_observer ((typename Base::Observer*)p_obs));
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}
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//@}
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};
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} //namespace CGAL
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#include <CGAL/enable_warnings.h>
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#endif
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